DD 02-28-14 09-10am Introduction to Fungal Pathogens - High

Question 1

Basic Tenets of Medical Mycology - Linnaen system, Differences between Fungi & others

Answer 1

Divides living world into 5 kingdoms:

1. Plantae
2. Animalia
3. Fungi (Mycota
4. Protista (protozoa)
5. Monera (bacteria)

Fungi are wholly unrelated to bacteria or protozoa

• these differences can be exploited therapeutically
• unaffected by antibacterial antibiotics
• instead use antifungal antibiotics

Question 2

Fungi - basics of life / reproduction

Answer 2

• eukaryotic
• aerobic
• unicellular or filamentous
• heterotrophic
• encased in a rigid cell wall
• May reproduce sexually or asexually (nature of reproduction is used in classification)

Question 3

Fungi as Eukaryotes

Answer 3

As Eukaryotes, have…

- contain membrane bound organelles (nuclei, mitochondria, Golgi, ER lysosomes)

Question 4

Fungi as Heterotrophs

Answer 4

As Heterotrophs…

• lack chlorophyll
• NOT photosynthetic (autotrophic) like plants/algae
• obtain necessary organic substrates from surroundings

Question 5

Fungi - Cell wall

Answer 5

Fungi have rigid cell wall

• like plants
• unlike animals
• contains chitin (as in exoskeleton of insects) and cellulose (as in plant matter)

Question 6

Fungi - Cell membrane

Answer 6

• inside rigid cell wall

- contains ergosterol

Question 7

Fungi - Motility

Answer 7

• Only a few specialized fungi (Chytridiomycota) are mobile

- NO medically-relevant species are motile

Question 8

Subclassifications of Fungal Species

Answer 8

• saprobes
• symbionts
• commensals
• parasites
• This same system of classification applies to bacteria and protozoa.

Question 9

Saprobes (subclassification of fungal species)

Answer 9

• live upon dead / decaying organic matter

Question 10

Symbionts (subclassification of fungal species)

Answer 10

• live upon other organisms to the mutual advantage of both

Question 11

Commensals (subclassification of fungal species)

Answer 11

• live upon another orangism with no detriment to the host

Question 12

Parasites (subclassification of fungal species)

Answer 12

• live upon another organism w/clear detriment to the host

Question 13

How fungi are sub-classified

Answer 13

Poses problem when fungus formerly thought to be “imperfect” (w/out a sexual state) is later discovered to be capable of sexual reproduction

–> thus, phyla recognized within mycology are in great flux

Question 14

Cryptococcus classification & reproduction

Answer 14

Cryptococcus = fungal infection common in HIV/AIDS patients, caused by Cryptococcus neoformans

• 1st thought it was “imperfect” (w/out sexual state)
• Later discovery of sexual state prompted “re-naming” to Filobasidiella neoformans
• Clinicians have not embraced the change and, in the medical realm, the original name persists

Question 15

Kingdom Fungi/Mycota - 6 Phyla

Answer 15

Chytridiomycota
Zygomycota* 
Ascomycotina *
Glomeromycota
Basidomycotina*
Deuteromyoctina*

*medially important

Question 16

Zygomycota - reference species

Answer 16

Mucor, Rhizomucor, and Rhizopus

Question 17

Ascomycotina - reference species

Answer 17

Dermatophytes

Question 18

Basidomycotina - reference species

Answer 18

Cryptococcus

Question 19

Deuteromyoctina - reference species

Answer 19

Asexual / imperfect fungi

Question 20

2 Fungi Growth Forms

Answer 20

Yeasts - unicellular, round & oval

Molds - filamentous

Question 21

Yeast growth form

Answer 21

• unicellular growth form

Fungus reproduces via…

• budding to form blastoconidia
• dividing in half through fission

Colonies of yeast are usually moist or mucoid in appearance

May form pseudohyphae (different than mold hyphae)

Question 22

Yeast of medical relevance

Answer 22

Cryptococcus neoformans

Candida albicans

Question 23

Mold growth form

Answer 23

• filamentous growth form
• Fungus reproduces via formation of spores or conidia

Filamentous elements = hyphae

Question 24

Molds of medical relevance

Answer 24

common dermatophytes

Aspergillosis

Question 25

Hyphae of Mold forms

Answer 25

• en mass = mycelium
• often branched
• grow by apical extension
• may be septate (w/internal divisions, like a cattail stalkca) or non-septate

Question 26

Septa of Hyphae

Answer 26

Septa divide hyphae into compartment but do NOT strictly divide the fungus into “cells”
-cytoplasm or even organells may flow between compartments via pores w/in the septa

Question 27

Pseudohyphae (vs. hyphae)

Answer 27

• formed by some yeasts (not the true hyphae of molds)
• simply elongated yest linked together like sausages
• typically demonstrate some degree of rounding
• DO NOT have cytoplasmic connections between compartments
• Candida albicans is an organism that often forms pseudohyphae

Question 28

Dimorphic fungi

Answer 28

• Fungi that do not have fixed morphology but may exist in YEAST OR HYPHAL form
• Typically transition triggered by an environmental change (atmosphere, temperature, food supply)

*Thermal dimorphism refers to dimorphism that is dictated by temperature (most common context of “dimorphism”)

Question 29

Histoplasmosis & Dimorphism

Answer 29

• disease caused by Histoplasmosa capsulatum
  = thermally dimorphic fungi often found in bird/bat feces
• at ambient temp in fecal material, exists mold and saprophyte
• if inhaled & at body temp, can transform into parasitic yeast of macrophages

Question 30

Medically relevant thermally dimorphic organisms (w/pneumonic)

Answer 30

Some Can Have Both Phases
S- Sporothrix schenckii
C- Coccidioides immitis
H- Histoplasmosa capsulatum
B- Blastomyces dermatitidis 
P- Paracoccidioides brasiliensis

Question 31

Hyphal Characteristics - Rhizoids

Answer 31

= specialized form of hyphal elements that grow like roots from larger hyphae

Question 32

Medically-relevant fungi that form Rhizoids

Answer 32

• seen only in a few medically-relevant fungi (e.g. Rhizopus)

Question 33

Hyphal Characteristics - Septa

Answer 33

• Septate hyphae are those that demonstrate complete cell walls that subdivide the hyphae into compartments
• These subdivisions are NOT equivalent to “cells,” as microscopic pores in septae allow for free exchange of cytoplasm & nuclei between compartments.

Question 34

Medically-relevant SEPTATE fungi

Answer 34

Aspergillus fumigatus

Dermatophytes

Question 35

Hyphal Characteristics - Non-septate

Answer 35

• Non-septate hyphae have no cell walls compartmentalizing the hyphae
• In truth, sometime very sparse or incomplete septae may be present, but fungus is still considered to be aseptate

Question 36

Medically-relevant NON-SEPTATE fungi

Answer 36

Rhizopus

Question 37

Spores & Fungal Reproduction

Answer 37

• Sexual & asexual fungi may reproduce via spore formation
• Yet at an introductory level, the spores useful to identify & classify medically-relevant fungi that are asexual spores

Question 38

Examples of important types of asexual spores

Answer 38

Conidia
Sporangia
Chlamydospores
Arthrospores
Spherules
Blastoconidia
Sclerotic bodies

Question 39

Conidia

Answer 39

• type of asexual spore of medical relevance
• usually borne off of specialized aerial hyphae (upward-projecting hyphae) called conidophores
• may macroconidia or microconidia

Question 40

Microconidia vs. Macroconidia

Answer 40

Conidia may be…

• large & multinucleated (macroconidia)
• small & unicellular (microconidia)

(see pics in notes)

• Some fungal species may produce both macroconidia & microconidia
• Generally, macroconidia of certain shapes or with certain features are more useful in speciation than microconidia

Question 41

Sporangia

Answer 41

– type of asexual spore of medical relevance

Similar to macroconidia
- BUT asexual spores (endospores) are enclosed in membranous sac
- sac that breaks & entire structure is borne by sporangiphore
(see pic in notes)

• Shapes / colors of sporangium may be useful in speciation

Question 42

Chlamydospores

Answer 42

• • type of asexual spore of medical relevance
• thick-walled, round spores
• highly resistant to adverse environmental conditions

Further classified based upon where they form along hyphae
- Terminal = form at ends of hyphae
- Intercalary = form along & w/in hyphae
(see pic in notes)

Question 43

Arthrospores

Answer 43

– type of asexual spore of medical relevance

Like chlamydospores, develop along hyphae

• BUT generally are more numerous & elongated
• often “barrel-shaped”

Classical example of barrel-shaped arthrospores:
- Mycelial phase of Coccidioides immitis
(see pic in notes)

It is inhalation of these arthospores from the environment that yields the disease.

Question 44

Spherules

Answer 44

• • type of asexual spore of medical relevance
• large, asexual spores that develop during the yeast phase of some organisms growth

EX: Yeast form of dimorphic Coccidioides immitis forms spherules in tissue that are filled w/ endospores
(see pic in notes)

Question 45

Blastoconidia

Answer 45

– type of asexual spore of medical relevance
- yeasts that bud asymmetrically form these
(see pic in notes)

Question 46

Sclerotic bodies

Answer 46

• • type of asexual spore of medical relevance
• aka Medlar bodies
• thick-walled, environmentally protective forms of yeast
• produced by some medically-relevant fungi that reproduce by fission

Question 47

Thallus

Answer 47

another name for a fungal colony growing on a culture dish

Question 48

Obverse vs. Converse

Answer 48

Obverse = top side of growing thallus
Converse = flip-side (seen by looking through the media, and also known as the reverse)

Color of obverse/converse, or other characteristics (“mucoid”, “tangled”, “cerebriform”) of growing thallus may be used in speciation

Question 49

Geophilic

Answer 49

• subclassifcation of Dermatophytes
  = a species of fungus found principally in soil
• can be transmitted to humans (but often less clinically relevant)

Question 50

Anthrophilic

Answer 50

• subclassifcation of Dermatophytes
  = a species of fungus found principally in humans
• typically less inflammatory

Question 51

Zoophilic

Answer 51

• subclassifcation of Dermatophytes
  = a species of fungus found principally in animals
• can be transmitted to humans
• typically more inflammatory

Question 52

Dematiaceous

Answer 52

• subclassifcation of Dermatophytes

= a fungus which produces its own pigment, usually melanin

Question 53

Number of fungi implicated in human disease

Answer 53

250,000 know forms of fungus
100-150 implicated in disease of humans
Only a dozen cause regularly-seen fungal infections

Question 54

Superficial fungal infections - Examples

Answer 54

• Tinea (dermatophytes, dermatophytosis – “ringworm”)
• Candida (candidiasis, thrush, “[vaginal] yeast infections”)
• Pityrosporum (pityrosporum versicolor/tinea versicolor)

Question 55

Deep fungal infections/Systemic mycoses - Examples

Answer 55

Sporotrichosis
Cryptococcosis
Coccidioidomycosis
North American Blastomycosis
Histoplasmosis
Paracoccidiodomycosis
Lobomycosis
Mucormycosis

Question 56

3 most common superficial fungal infections

Answer 56

dermatophytes
Candida
Pityrosporum
*usually cutaneously limited diseases of the skin & mucosa (except in immunocompromised & critically-ill)

Question 57

Dermatophytes

Answer 57

• = a group of hyphal fungi that utilizes keratin as a substrate for growth
• a rather unique property of this group of fungi
• limits areas of body where organism will be found (skin, hair, nails)
• predicts its behavior

Question 58

Candida

Answer 58

= a non-dermatophyte yeast that prefers the glucose of interstitial fluids for growth
- Candida also causes superficial fungal infections, but its need for glucose explains subtle differences in its body distribution & behavior

Question 59

Pityrosporum

Answer 59

= another non-dermatophyte yeast that prefers breakdown products of sebum (“skin oil”) for growth
- this substrate dependence explains differences in its body distribution & behavior

Question 60

Characteristic of Deep mycoses

Answer 60

= able to cause systemic infection

• Many begin in the lungs (through inhalation of arthrospores and the like)
• Later, disseminate widely to variety of tissues
• Often the extent of disease depends upon immunological status of the host

Question 61

4 means to Dx Fungal infections

Answer 61

• empirical
• direct examination
• culture
• tissue

Question 62

Other advanced techiques to Dx Fungal infections

Answer 62

• serological
• PCR
• used for certain infections or in specific circumstances

Question 63

Autofluorescence under black-light

Answer 63

• “Wood’s Lamp,” 365 nm
• some fungal species autofluoresce under black-light
• Before, an easy way to highlight some fungal species that cause tinea capitis (dermatophyte infection of the scalp)
• Nowadays 95% of all tinea capitis is caused by an organism that DOES NOT fluoresce, limiting the utility of this technique today

Question 64

Direct Microscopic Examination of Fungal Infection

Answer 64

• Often it is most appropriate to take scraping of epithelium from affected skin or mucosa
• Add drop of KOH (5-20%) or surfactant DMSO, to denatures human material & leaves chitinous walls of fungi more visible
• Allows for direct observation for presence of yeast & hyphae indicative of superficial fungal infection
• Even in some deeper fungal infections, elimination of yeast forms through skin allows Dx to be confirmed using KOH technique

Question 65

Variation of KOH/DMSO techniques for Direct Microscopic Examination of Fungal Infection

Answer 65

• May add chlorazol E black stain to KOH or DMSO
• Stains chitinous fungal cell walls a grey-green color
• Makes direct microscopic examination easier for many inexperienced practitioners

Question 66

India Ink for fungal infections

Answer 66

• Cryptococcosis is a systemic infection prevalent in HIV/AIDS patients.
• This yeast is surrounded by a thick mucoid capsule
• If cryptococcosis is suspected, CSF from lumbar puncture may be IDed by mixing it w/India ink
• -> stains everything EXCEPT mucoid capsule, thereby highlighting the organism

Question 67

Gram stain for Fungal Infections

Answer 67

A simple Gram stain not only highlights bacteria on clinical material, but also highlights the yeast, Candida albicans

Question 68

Culturing fungal infections

Answer 68

• Just as for bacterial cultures
• Clinical material (skin, hair, nails, soft tissue, etc.) may be cultured for growth of fungal organisms
• Chief advantage of culture is that it allows for direct speciation of infecting organism, although in many clinical situations the sensitivity of culture may be less than direct examination or histological examination (via biopsy)

Question 69

Media for Fungal Cultures

Answer 69

Cultures may be performed using a variety of different media including:

• Sabouraud’s agar
• Mycosel®/Mycobiotic® agar
• Dermatophyte Test Medium®

Special agars may be used for specific purposes or to grow fastidious organisms
- EX: cornmeal agar induces Candida albicans to produce chlamydospores

Question 70

Sabouraud’s agar for Fungal Culture

Answer 70

= the most sensitive culture media, as it will allow for growth of both dermatophytes & non-dermatophytes
- Unfortunately, unrelated contaminants also grow well, and may obscure the primary pathogen

Question 71

Mycosel/Mycobiotic agar for Fungal Culture

Answer 71

= fungal media impregnated w/ chloramphenicol & chlorheximide to inhibit growth of bacteria & saprobes

Question 72

Dermatophyte Test Medium (DTM) for Fungal Culture

Answer 72

= essentially mycosel-like media w/ a pH indicator that turns agar from red in presence of a dermatophyte

Question 73

Pros & Cons of Culturing Fungus to Dx Infection

Answer 73

PROS:

• Cheap
• Allows for speciation
• Does not require much professional time to collect a sample

CONS:

• Results are often delayed (2-4 weeks)
• Less sensitive than KOH in many settings

Question 74

Lactophenol cotton blue stain

Answer 74

• often used on fungal specimens taken from colonies grown via culture
• not a stain used in any clinical setting outside of the examination of cultured fungi

Question 75

Histology to Dx Fungal Infection

Answer 75

= biopsy of skin, hair, and nails

= a sensitive & specific diagnostic technique for fungal infection

Question 76

Pros & Cons of Histology of a Biopsy to Dx Fungal Infection

Answer 76

PROS:

• rapidity of diagnosis (2-3 days, more rapid than culture but less than direct examination)
• high degree of sensitivity, esp. when special stains are performed

CONS:

• higher cost
• invasive nature of the procedure
• procurement of representative sample is essential to the sensitivity of the test
• some organisms are not usually well demonstrated in histological sections & culture is there preferred

Question 77

H&E vs. Special Stains for Fungus

Answer 77

• Many fungi are apparent w/ H&E staining alone

- Several special stains may make fungus more apparent during histologic examination

Question 78

Special Stains for fungus - examples

Answer 78

• PAS/D (Periodic acid Schiff followed by Diastase)
• GMS – Gomori methenamine silver
• Mucucarmine (mucin stain)
• Calcoflour white stain
• Fluorescent antibody stains

Question 79

PAS/D – Periodic acid Schiff followed by diastase

Answer 79

• special fungal stain
• highlights chitinous cell wall of fungi, yielding a magenta/purple color
• Most human tissue does not stain w/ PAS-D
• Glycogen rich material will stain with PAS, but this staining is lost w/ diastase digestion, while fungal chitin is not affected by diastase

Question 80

GMS – Gomori methenamine silver

Answer 80

• special fungal stain

- utilizes silver to highlight fungus a jet black color

Question 81

Mucucarmine (mucin stain)

Answer 81

• special fungal stain

- useful to highlight mucoid capsule of Cryptococcus a red color

Question 82

Calcoflour white stain

Answer 82

• special fungal stain
• may be used for direct examination of most specimens using fluorescent microscopy
• Cell walls of fungi bind stain & fluoresce blue-white or apple-green depending upon fluorescent light source used on the fluorescent microscope

Question 83

Skin Testing for fungal infections

Answer 83

• works using principles similar to that of TB screening
• Killed antigenic material, such as histoplasmin derived from Histoplasmosa capsulatum, is placed under the skin
• A delayed-type hypersensitivity response is checked for in 48-72 hours
• Just like a TB screen, a positive reaction is only indicative of prior exposure & not necessarily active disease

Question 84

Serology for fungal infections

Answer 84

For some types of fungal infections, blood tests may be useful.

EX: Pts w/ disseminated cryptococcosis
- serological test of cryptococcal antigen is positive in 75% of cases

Question 85

PCR for fungal infections

Answer 85

• becoming increasingly useful for speciation of some types of fungal infections
• has not yet reached wide commercial availability

Question 86

Selective toxicity in fungal infections

Answer 86

• Just as antibacterial agents seek to exploit physiological differences btwn human cells & bacteria, so to do antifungal agents seek to exploit differences in fungal cells
• Ergosterol is a component of fungal cell membranes, serving the same function that cholesterol serves in animal cells
• Presence of ergosterol in fungal cell membranes & its absence in animal cell membranes, makes it a useful target for antifungal drugs

Question 87

Polyenes - action

Answer 87

= a circular molecule consisting of a hydrophobic & hydrophilic region, creating an amphoteric molecule

• bind w/ ergosterol in fungal cell membrane
• react w/ animal sterols to much lesser extent
• considered FUNGICIDAL

Question 88

Polyenes - examples

Answer 88

Amphotericin B

Nystatin

Question 89

Amphotericin B

Answer 89

• binds to ergosterol, creating pore in fungal membrane
• -> causes ions & other molecules to leak out
• Many side-effects including fever, seizures, & kidney damage
• Newer liposomal formulations have made it better tolerated, but w/ greater financial cost
• Still, it remains a common medication for life-threatening fungal infections

Question 90

Nystatin

Answer 90

= another polyene used topically for Candida infections

- not absorbed when given PO & too toxic for IV

Question 91

Imidazole & Triazole antifungals - actions

Answer 91

Inhibit the enzyme, 14α-demethylase

• this enzyme converts lanosterol to ergosterol
• it is required in fungal cell membrane synthesis

These drugs block steroid synthesis in humans too, but to a much lesser extent.

Generally considered to be FUNGISTATIC

Question 92

Drug-Drug Interactions of Imidazole & Triazole antifungals

Answer 92

• often interfere w/ CYP450 enzymes
• -> leads to potentially fatal drug interactions w/ certain meds
• Topical imidazoles are not absorbed to any significant extent & are considered free of worry WRT drug-drug interactions (why they are available OTC)

Question 93

Triazoles vs. Imidazoles

Answer 93

Triazoles are similar to imidazoles but simply newer & for the most part better tolerated

Question 94

Examples of Topical Imidazoles

Answer 94

Clotrimazole
Miconazole
Econazole
Sertaconazole

Question 95

Examples of Oral Imidazoles

Answer 95

Ketoconazole

Question 96

Examples of Oral Trianzoles

Answer 96

Itraconazole
Fluconazole
Voriconazole
Posaconazole

Question 97

Allylamines & benzylamines antifungals - action

Answer 97

Inhibit enzyme squalene epoxidase
- another enzyme required for ergosterol synthesis
–> leads to accumulation of squalene w/in fungal cell = directly toxic
= FUNGICIDAL

Question 98

Terbinafine

Answer 98

= most common allylamine
- available in topical & oral forms

Reports of unmasking of lupus-like conditions w/ oral terbinafine
= poor choice for those w/ pre-existing Hx of connective tissue disease

Question 99

Butenafine

Answer 99

= a topical benzylamine, related to terbinafine

Question 100

Echinocandins - action

Answer 100

= the newest class of antifungal agents

• inhibit synthesis of glucan in cell walls of some fungi
• probably via inhibition of enzyme 1,3-β glucan synthase

Question 101

Pros & Cons of Echinocandins

Answer 101

PROS:

• low toxicity
• rapid fungicidal activity against most isolates of Candida
• favorable kinetics that allow for once daily dosing
• also fungicidal against Aspergillus

CONS:
- not useful against many other forms of fungus

Question 102

Griseofulvin

Answer 102

• inhibits fungal cell mitosis by disrupting mitotic spindle formation (critical step in cellular division)
• well tolerated & has been around for decades
• still used in children with tinea capitis b/c of its long record of safety
• in many other indications, replaced by newer triazole medications

-FUNGISTATIC

Question 103

Flucytosine

Answer 103

• small molecule transported into fungal cells by specific enzyme, cytosine permease
• then converted in cytoplasm by cytosine deaminase to 5-fluorouracil (5-FU)
• 5-FU is a pyrimidine anti-metabolite that interrupts DNA synthesis, inhibiting fungal growth
• FUNGISTATIC

Question 104

Ciclopirox olamine

Answer 104

• does NOT affect ergosterol metabolism
• thought to chelate polyvalent metal cations, such as Fe3+ & Al3+
• -> leads to inhibition of many different fungal enzymes, including cytochromes
• -> inhibits important cellular activities such as mitochondrial e- transport & energy production
• FUNGISTATIC and/or FUNGICIDAL activity in vitro against a broad spectrum of fungal organisms